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Sommaire du brevet 3159215 

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Disponibilité de l'Abrégé et des Revendications

L'apparition de différences dans le texte et l'image des Revendications et de l'Abrégé dépend du moment auquel le document est publié. Les textes des Revendications et de l'Abrégé sont affichés :

  • lorsque la demande peut être examinée par le public;
  • lorsque le brevet est émis (délivrance).
(12) Brevet: (11) CA 3159215
(54) Titre français: MECANISME D'ACTIONNEMENT DE FUSIL A EAU JOUET
(54) Titre anglais: TOY WATER GUN ACTUATION MECHANISM
Statut: Accordé et délivré
Données bibliographiques
(51) Classification internationale des brevets (CIB):
  • F41B 9/00 (2006.01)
(72) Inventeurs :
  • PAUL, JULIA (Allemagne)
(73) Titulaires :
  • SPYRA GMBH
(71) Demandeurs :
  • SPYRA GMBH (Allemagne)
(74) Agent: SMART & BIGGAR LP
(74) Co-agent:
(45) Délivré: 2023-04-04
(22) Date de dépôt: 2022-05-17
(41) Mise à la disponibilité du public: 2022-09-08
Requête d'examen: 2022-05-17
Licence disponible: S.O.
Cédé au domaine public: S.O.
(25) Langue des documents déposés: Anglais

Traité de coopération en matière de brevets (PCT): Non

(30) Données de priorité de la demande:
Numéro de la demande Pays / territoire Date
21 180 420.8 (Office Européen des Brevets (OEB)) 2021-06-18

Abrégés

Abrégé français

Il est décrit un mécanisme dactionnement de jouet de type pistolet à eau pour commander louverture dune vanne avec un élément daccouplement, un élément de blocage avec une butée qui permet douvrir et de fermer la vanne si lélément de blocage est dans sa position de blocage et si lélément daccouplement se trouve dans la première position, puis la butée est positionnée dans la trajectoire de lélément daccouplement; si lélément de blocage est dans sa position de non-blocage, la butée est située à lextérieur de la trajectoire définie par le mouvement de lélément daccouplement. Un premier élément élastique est raccordé à la détente et à lélément daccouplement; lénergie potentielle du premier élément élastique est augmentée si la détente est actionnée pendant que lélément daccouplement est dans sa première position. La détente comporte une griffe de poussée conçue pour déplacer et/ou relâcher un mouvement de lélément de blocage de la position de blocage dans sa position de non-blocage si la détente est actionnée.


Abrégé anglais


A toy water gun actuation mechanism for controlling opening of a valve, having
a
coupling member, a blocking member with an abutment that enables to open
and close the valve if the blocking member is in its blocking position and the
coupling member is in the first position, then the abutment is positioned in
trajectory of the coupling member; if the blocking member is in its non-
blocking
position, the abutment is located outside the trajectory defined by the
movement of the coupling member. A first elastic member is connected to the
trigger and to the coupling member; the potential energy of the first elastic
member is increased if the trigger is actuated while the coupling member is in
its
first position. The trigger has a pusher dog configured to move and/or release
a
movement of the blocking member from the blocking position into its non-
blocking position if the trigger is actuated.

Revendications

Note : Les revendications sont présentées dans la langue officielle dans laquelle elles ont été soumises.


29
Claims
1. A toy water gun actuation mechanism for controlling opening of a valve with
a valve member wherein the valve member has a closed position and an
open position, the water gun actuation mechanism comprising at least:
- a base (30),
- a trigger (90), being movably supported relative to the base (30) and
having at least an actuated position and a non-actuated position,
- a coupling member (50) being configured to be connected or being
connected to the valve member and/or to a valve member connection
rod, wherein the coupling member is movably supported relative to
the base (30) at least from a first position to a second position;
characterized in that
- a blocking member (60) with an abutment is movably supported
relative to the base (30) and relative to the coupling member (50)
wherein the blocking member (60) has a blocking position and a non-
blocking position,
- if the blocking member (60) is in its blocking position and if the
coupling member (50) is in the first position, then the abutment is
positioned in trajectory of the coupling member (50) defined by a
movement of the coupling member (50) from the first position into
the second position,
- if the blocking member (60) is in its non-blocking position, the
abutment is located outside the trajectory being defined by the
movement of the coupling member (50)
- a first elastic member (57) is connected to the trigger (90) and to the
coupling member (50), wherein the potential energy being stored by
the first elastic member (57) is increased, if the trigger (90) is moved
Date Recue/Date Received 2022-08-12

30
from its non-actuated position towards its actuated position while the
coupling member (50) is maintained in its first position by the blocking
member (60),
- the trigger (90) has a pusher dog (91) configured to move and/or
release a movement of the blocking member (60) from the blocking
position into its non-blocking position if the trigger (90) is moved from
its non-actuated position towards its actuated position.
2. The toy water gun actuation mechanism of claim 1, characterized in that it
further comprises a slider (70), wherein the slider (70)
- is movably supported relative to the base (30) and having a third
position and a fourth position,
- is releasably coupled to the trigger (90),
- if coupled to the trigger (90), connects the trigger (90) with the first
elastic member (57), and
- if not coupled to the trigger (90) disconnects the trigger (90) from the
first elastic member (57).
3. The toy water gun actuation mechanism of claim 1 or 2, characterized in
that
- the trigger (90) and/or the slider (70) movably support/s a locking
member (80) having a locking position and a non-locking position,
- the locking member, if in its locking position provides a positive
locking and/or an interference fit between the trigger (90) and the
slider (70), thereby coupling the slider (70) to the trigger (90),
- the locking member, if in its non-locking position releases the positive
locking and/or the interference fit, respectively, thereby uncoupling
the trigger (90) and the slider (70).
Date Recue/Date Received 2022-08-12

31
4. The toy water gun actuation mechanism of claim 3, characterized in that
- the locking member, if in its locking position is in the trajectory of
the
coupling member when moving the coupling member from the first
position to the second position,
- the coupling member is configured to entrain the locking member
into the non-locking position when moving the coupling member from
an intermediate position to the second position.
5. The toy water gun actuation mechanism of claim 3 or 4, characterized in
that
the locking member is biased towards its locking position.
6. The toy water gun actuation mechanism of any one of claims 2 to 5,
characterized in that the slider (70), when in the fourth position, is biased
towards the third position.
7. The toy water gun actuation mechanism of any one of claims 2 to 6,
characterized in that
- at least a portion of the coupling member (50) is in the trajectory of
the slider (70), when moving the slider (70) from the fourth position
to the third position and if the coupling member (50) has not been
shifted back into its first position and/or
- at least a portion of the slider (70) is in the trajectory of the
coupling
member (50), when moving the coupling member (50) from the
second position to the first position and if the slider (70) has not been
shifted back into the third position.
8. The toy water gun actuation mechanism of any one of claims 1 to 7,
characterized in that
if the blocking member (60) is in its non-blocking position and if the
coupling
Date Recue/Date Received 2022-08-12

32
member is in the first position, then at least a portion of the blocking
member (60) is in the trajectory or the trigger (70) when moving the
trigger (70) towards the non-actuated position, and in that the trigger (70)
is
configured to entrain the blocking member (60) into the blocking-position
when moving the trigger (60) into the non-actuated position, while the
coupling member (50) is in the first position.
9. A liquid dispensing or dosing device (100), comprising at least:
- a housing (110), and/or
- a liquid tank (115) having an outlet; and/or
- a valve (120) with a valve conduit (121), a valve inlet port (123), a
valve opening (124), a valve outlet port (125) and a movably
supported valve member (126), wherein the valve member (126) has
closed position in which the valve member (126) closes the valve
opening (124) and an open position in which the valve member (126)
releases the valve opening (124);
- a tube (130) with a tube wall (131) providing a fluid communication of
the outlet of the liquid tank (115) with the inlet port (123) of the valve
conduit (121); and/or
- a nozzle (125) being in fluid communication and/or integral with the
outlet port (125) of the valve; and/or
characterized in that
the device (100) comprises the toy water gun actuation mechanism (100) of any
one of claims 1 to 8, wherein the valve member (126) is attached to the
coupling
member (50) and configured to entrain the valve member (126) from the closed
position into the open position if the coupling member is moved from the first
position into the second position.
Date Recue/Date Received 2022-08-12

33
10. The device of claim 9, characterized in that
the device comprises a rod (25) having a proximal end and a distal end,
wherein the distal end is attached to and/or unitary with the valve member
and the distal end is attached to and/or unitary with the coupling
member (50);
11. The liquid gun of any one of claims 9 to 10 characterized in that,
- the liquid tank is a pressure tank, configured to contain a pressurized
liquid and/or
- the base is integrated into, unitary with and/or attached to a liquid
gun housing.
Date Recue/Date Received 2022-08-12

Description

Note : Les descriptions sont présentées dans la langue officielle dans laquelle elles ont été soumises.


1
Toy Water Gun Actuation Mechanism
Field of the invention
The invention relates to an actuation mechanism for controlling opening of a
valve of a toy water gun. The valve has a valve member with a closed position
and an open position. The actuation mechanism can be used for controlling the
valve member of a toy water gun. The actuation mechanism comprises a base
and a trigger. The trigger is movably supported relative to the base and has
an
actuated position and a non-actuated position. The actuation mechanism may
further comprise a coupling member configured to be connected, e.g., directly
or
a via a valve member connection rod, to a valve member, wherein the coupling
member is movably supported relative to the base between a first position and
a
second position.
Description of the related art
There are generally two conceptual different types of toy water guns. A first
set
of toy water guns have a trigger, being coupled to a water pump. Actuating the
trigger operates the water pump and the water is sprayed by a water pump
through a nozzle. A second set of toy water guns has a water reservoir being
pressurized. The pressurized water reservoir is fluidly connected via a valve
with
the nozzle. The trigger is coupled via an actuation mechanism to the valve and
hence actuating the trigger results in opening the valve.
A toy water gun with an actuation mechanism is disclosed in US 6,631,830 B.
The
toy water gun has a pressurized water reservoir being fluidly connected via a
ball
valve with a nozzle. The ball valve has a rotatably supported valve ball being
cou-
pled to a lever arm. The valve ball and hence the lever arm is bistable in an
open
and in a closed position. To this end, the lever arm is connected via a spring
with
a pivotably supported connecting member. Operating the trigger, causes the
connecting member to pivot, thereby elongating the spring. Initially, the
force
Date Recue/Date Received 2022-08-12

2
exerted by the spring pulls the lever arm into its closed position. Continued
pull
on the trigger results in a continued pivotal movement of the connecting mem-
ber until the force exerted by the spring on the lever arm towards its open
posi-
tion is greater than the force towards its closed position. Accordingly, the
valve
ball abruptly rotates into its open position. Once the trigger is released, a
trigger
spring forces the trigger back into its non-actuated position and thereby the
lever arm as well rotates back into its closed position. The ball valve is
closed
again.
Summary of the invention
The invention is based on the observation, that the actuation mechanism of the
prior art water gun lacks haptic feedback when the valve is actually opened
and
further duration of a 'shot' depends on the operator of the trigger.
The problem to be solved by the invention is to provide an improved actuation
mechanism for in particular toy water guns.
The invention provides an actuation mechanism for a water gun or any other
kind of liquid dispenser having a valve for controlling the liquid flow. These
valves mostly have a valve member with an open position and a closed position.
In the open position, the valve member may release a valve seat or another
kind
of valve opening enabling a fluid flow through the valve. In the closed
position,
the valve member may seal the valve seat or the another kind of valve opening,
respectively. In a preferred example, the valve member may be movably sup-
ported to thereby enable a movement of the valve member from the closed po-
sition into the open position and back into the closed position. The movement
is
preferably a translation but may as well be a rotation or a superposition of a
ro-
tation and a translation.
The water actuation mechanism comprises a base. The base may be a part of a
housing of the actuation mechanism and/or may be attached to a housing of the
Date Recue/Date Received 2022-08-12

3
water gun. Unless explicitly specified, movements of other parts of the
actuation
mechanism are relative to the base. In other words, the base provides a refer-
ence system and may support and/or bear any of the other parts at least indi-
rectly. For example, a trigger of the actuation mechanism may be movably sup-
ported relative to the base. The trigger is thus movable at least from a non-
actu-
ated position to an actuated position and preferably back to the non-actuated
position. In operation, a user may pull and hence move the trigger from the
non-
actuated to the actuated position (and optionally even beyond) to thereby open
the valve (if the actuation mechanism is connected to a valve). The trigger
can
thus be considered as a user interface for controlling a water flow from the
liquid
reservoir through the valve to the nozzle of the water gun. Only for complete-
ness, the valve outlet may be the and/or configured as the nozzle.
As already apparent the non-actuated and the actuated position of the trigger
may but are not necessarily end positions. In a preferred example, the non-
actu-
ated position and the actuated position are not end positions. For example,
the
trigger may preferably be movable beyond these positions by for example at
least 1%, 2%, 5% and/or 10% of the distance between the non-actuated position
and the actuated position.
The actuation mechanism may further comprise a coupling member. The cou-
piing member may be configured to be connected or may alternatively be con-
nected to a valve member and/or to a valve member connection rod and/or uni-
tary with at least one of these. The coupling member may thus be considered as
an interface between the trigger and the valve member. Preferably, the
coupling
member comprises a coupling adapter. The coupling adapter may be configured
to receive and/or to be attached and/or coupled to a (for example distal)
portion
of the valve member and/or a (for example distal) portion of a valve member
connecting rod. The term distal references to the valve opening, i.e., the
distal
end faces way from the valve opening, wherein the proximal portion of the
valve
Date Recue/Date Received 2022-08-12

4
member is the portion that closes the valve seat, if the valve member is in
the
closed position.
Similar to the trigger, the coupling member is preferably movably supported
rel-
ative to the base, for example by the base. The coupling member is thus
prefera-
bly movable at least between a first position and a second position. Herein,
we
consider the first position as the position of the coupling member in which a
valve member, if coupled to the coupling member closes the valve and the sec-
ond position as the position of the coupling member in which the valve member
is in the open position. Alternatively, one may replace the term "first
position" by
"position of the coupling member in which an optionally coupled valve member
is
in its closed position" and "second position" by "position of the coupling
member
in which an optionally coupled valve member is in its open position". The
first and
second positions are not necessarily end positions of the coupling member. In
practice it is preferred if the coupling member can be moved at least from the
first position beyond the second position and/or from the second position be-
yond the first position. For example, the coupling member may preferably be
movable beyond these positions by for example at least 1%, 2%, 5% and/or 10%
of the distance between the first and the second position. The movement is not
necessarily a translation, but may as well be rotation or a superposition of a
translation and a rotation, e.g. a pivotal movement.
The direction of the movement of the coupling member is preferably at least es-
sentially parallel to the direction of the movement of the trigger. At least
essen-
tially parallel means that parallel is preferred, but deviations by an angle a
can
be accepted, in particular if the absolute value of the angle a is smaller or
equal
than a critical angle ac, wherein ac E Ac = [30 , 20 , 10 , 5 , 2.5 , 1 , 0.5
, 0 ),
which can be expressed by the relation I al ac.
Date Recue/Date Received 2022-08-12

5
The actuation mechanism may further comprise a blocking member. The block-
ing member is preferably movably supported relative to the base and
particularly
preferred movably supported by the base. Thus, the blocking member may be
movably supported enabling a movement of the blocking member at least be-
tween a blocking position and a non-blocking position and preferably back to
the
blocking position. If the blocking member is in the blocking position, the
blocking
member blocks a movement of the coupling member from the first to the second
position. In other words, if the blocking member is in the blocking position
and if
the coupling member is in the first position, then an abutment of the blocking
member may preferably block a movement of the coupling member from the
first position into the second position. In the blocking position the abutment
is
preferably located in the trajectory being defined by a movement of the
coupling
member from the first to the second position. Equivalent to blocking the move-
ment by a positive fit of the abutment and the coupling member, the abutment
may provide an interference fit.
If the blocking member, however, in its non-blocking position, the abutment is
located outside the trajectory being defined by the coupling member, when the
coupling member is moved (e.g. shifted, rotated or pivoted) from the first
posi-
tion to the second position. Thus, if the blocking member is in its non-
blocking
position, the coupling member may pass the abutment or in other words, the
movement of the coupling member towards the second position is not blocked
by the blocking member. Summarizing, the blocking member in the non-blocking
position does not interfere a movement of the coupling member, whereas it
does in the blocking position.
In a preferred example, the blocking member has a through hole and/or a
recess.
A protrusion of the coupling member may extend into and/or through the
through hole and/or recess, respectively, wherein the protrusion may have a
first
section and a second section. The second section may have a larger diameter
Date Recue/Date Received 2022-08-12

6
than the first section. Hence, the surface connecting the peripheral surfaces
of
the first section and of the second section may abut the boundary encircling
the
through hole and/or recess. The boundary may thus provide an abutment for
the coupling member, if the blocking member is in the blocking position. To
move the blocking member in the non-blocking position one may simply align
the center of the through hole and/or recess with the center of the second sec-
tion. A movement of the blocking member into the non-blocking position may
comprise shifting the blocking member's boundary encircling the through hole
and/or recess in the trajectory of the surface connecting the peripheral
surfaces
of the first section and of the second section, which then abuts the blocking
member if moved from the first to the second position.
A first elastic member, e.g., a spring or any other kind of potential energy
stor-
age, may be connected to the trigger and to the coupling member. Thus, moving
the trigger relative to the coupling member against the restore force of the
first
elastic member enables to preload the coupling member towards the trigger.
The connection between the trigger and the first elastic member and/or be-
tween the coupling member and the first elastic member may be a releasable
connection, as will be explained below in more detail. The potential energy
being
stored by the first elastic member is preferably increased, if the trigger is
moved
.. from its non-actuated (i.e. released) position towards its actuated
position while
the coupling member is maintained in a given position, preferably in its first
posi-
tion, for example by the blocking member. Thus, the potential energy stored by
the elastic member may be minimized (i.e. have a (at least local) minima or an
absolute minima) if the trigger is in the non-actuated position while the
coupling
.. member is in the first position and/or if the trigger is in the actuated
position and
the coupling member is in the second position.
In a preferred example, the elastic member is connected to the trigger by posi-
tion controlled coupling. Particularly preferred is the position controlled
coupling
Date Recue/Date Received 2022-08-12

7
configured to enable a movement of the trigger during a predefined portion of
the path to the actuated position while not loading the first elastic member
and
to force transmittingly couple the trigger to the first elastic member once
the
trigger has been moved the predefined portion of the path. Thus, only when the
trigger is moved past this predetermined portion of the path, the first
elastic
member is loaded. This predetermined portion of the path is preferably small
compared to the full length of the path and may be for example equal or
smaller
than one of 25%, 20%, 15%,10% or 5% of the full path, while being preferably
bigger or equal than at least one of 1%, 2%, 3%, 4%, 5% of the full path. Once
the
trigger has been moved the predefined portion, the position controlled
coupling
force transmittingly connects the trigger to the first elastic member and
hence a
further movement of the trigger towards the actuated position loads the first
elastic member. This measure enables to reliably reposition other components
of
the actuation mechanism, once the trigger has been released, as the first
elastic
member is uncoupled prior to the trigger reaching its non-actuated position.
In
particular moving the optional coupling member into the initial first position
can
be enhanced as will become apparent below in more detail.
Preferably, the trigger is connected to a first end of an elastic member,
herein re-
ferred to as "trigger elastic member", only to enable a verbal distinction
from
other elastic members suggested herein. The trigger elastic member preferably
has a lower spring rate than the first elastic member and is preferably
configured
to reposition the trigger into the non-actuated position(, if it has been
released).
The second end of the trigger elastic member may be connected to the base or
any other part being static relative to the base. This measure as well
enhances
the reliability of the actuation mechanism, as the movement of the trigger
into
the non-actuated position by the trigger elastic member may entrain and/or
force the coupling member or other portions of the actuation mechanism into
their respective initial position(s) while the first elastic member is
unloaded.
Date Recue/Date Received 2022-08-12

8
Preferably, the trigger may comprise a pusher dog configured to move the block-
ing member from the blocking to the non-blocking position, if the trigger is
moved from its non-actuated position towards its actuated position. The pusher
dog is preferably unitary with the trigger, but it may as well be a separate
part.
All being required is that a movement of the pusher dog is preferably directly
coupled to the trigger. From another viewpoint one may say that the trigger
may
in any case comprise the pusher dog, but that the trigger is not necessarily
uni-
tary, hence the pusher dog moves with the trigger.
For example, the pusher dog may push or pull and/or entrain the blocking mem-
ber towards the non-blocking position, if the trigger is moved towards the
actu-
ated position, e.g. if the trigger reaches the actuated position or another
prede-
fined position in between of the non-actuated and the actuated position. The
pusher dog preferably engages and/or entrains the blocking member by a posi-
tive fit. Alternatively or in addition, the pusher dog may be coupled to the
block-
ing member via an elastic member. Only to distinguish this elastic member ver-
bally from other elastic members we refer to it herein as "release elastic mem-
ber" as it contributes to releasing the blocking member. If the pusher dog is
cou-
pled to the blocking member via the release elastic member, moving the trigger
towards the actuated position exerts a force to the blocking member having at
least a component pointing towards the unblocking position. This force being
transmitted via the release elastic member increases with an increase of
travel of
the trigger towards the actuated position until the blocking member breaks
free
and is moved by conversion of the potential energy stored in the release
elastic
member into its non-blocking position. Hence the blocking member is driven out
of the trajectory of the coupling member from the first position to the second
position. The coupling member may thus be moved towards its second position.
As usual the pusher dog may be protrusion extending from the trigger and/or a
lever and/or a rod or the like being force transmittingly coupled to the
trigger. In
Date Recue/Date Received 2022-08-12

9
case the pusher dog is coupled via the release elastic member to the blocking
member, the pusher dog may simply be an attachment point for the release elas-
tic member.
The pusher dog may hence drive and/or control the movement of the blocking
member and may optionally by this movement preload an elastic member bias-
ing the blocking member into its blocking position. Alternatively and/or in
addi-
tion, the blocking member may be biased, i.e. preloaded, by another optional
elastic member towards its non-blocking position and the pusher dog may re-
lease the movement, thereby reducing the preload. All these alternatives serve
the same purpose: The blocking member is moved into the non-blocking position
when the trigger reaches a predefined position while being moved towards the
actuated position. Thereby, when operating the trigger, first the first
elastic
member is loaded while the coupling member is maintained in a given position
(preferably in the first position) by the blocking member. Thus, the first
elastic
member excerts a force on the coupling member, wherein the force has at least
a component pointing towards the second position of the coupling member, but
a movement of the coupling member towards the second position is blocked by
the blocking member until the pusher dog of the trigger moves and/or enables a
movement of the blocking member into the non-blocking position and thereby
initiates a movement of the coupling member into the second position. Hence,
an optionally coupled valve member may be moved by a repeatable and prede-
termined force from the closed position into the open position, regardless
whether a user pulls the trigger quickly or slowly. Further, the interaction
of the
pusher dog with the blocking member can be sensed by the user. The actuation
mechanism thus provides a haptic feedback to the user. The suggested solution
enables to open the valve particularly quickly, and thereby the impression of
a
water bullet being released by the water gun can be created, while keeping man-
ufacturing costs low and providing for an enhanced life span and reliability
of op-
eration of the actuation mechanism and thus of the water gun.
Date Recue/Date Received 2022-08-12

10
The actuation mechanism may further comprise a slider. As the name implies,
the slider is preferably movably supported relative to the base, e.g. by a
plain
bearing. Other types of movable support can be used as well, and the term
slider
shall not be construed as limiting. The term slider could be replaced by the
term
"another movable member". Only to increase legibility and to render the
descrip-
tion more vivid the term slider is used instead of the term another movable
member and this usage shall be considered only as a preferred example for the
another movable member. Thus, the term slider can be generalized by the term
another movable member.
The slider may be movable relative to the base at least from a third position
to a
fourth position and back to the third position. The terms third position and
fourth
position have been selected only to clearly distinguish from the first and
second
positions the coupling member may be moved to. Thus, the term third position
may be considered as and hence replaced by "the first position of the slider"
and
the fourth position may be considered as and hence replaced by "the second po-
sition of the slider". Preferably, the trajectory of a movement of the slider
from
the third position to the fourth position is at least essentially parallel to
the tra-
jectory of a movement of the trigger from the non-actuated to the actuated
posi-
tion. Similarly, the trajectory of a movement of the slider from the third
position
to the fourth position is preferably (as well or alternatively) at least
essentially
parallel to the trajectory the coupling member when being moved from the first
position to the second position.
The slider is preferably releasably coupled to the trigger, e.g. by a
controllable
coupling. The term controllable coupling implies that the coupling may be
opened by a control interface and subsequently be closed again. For example, a
locking member may be movably supported by the trigger and/or the slider
and/or the base and may have a locking position. In the locking position the
lock-
ing member may engage into the trigger and the slider, whereas when in the
Date Recue/Date Received 2022-08-12

11
non-locking position the locking member may engage into none of these or at
max into one of these, thereby releasing, i.e. unlocking, the releasable
coupling,
e.g. by opening the controllable coupling. Other forms of releasable couplings
may be used as well. In a preferred example the locking member is movable at
least essentially orthogonal to the direction of movement of the trigger
and/or
the slider. The locking member can be or comprise for example a pin and/or
bolt
or/a trunnion to name only a few examples.
In case the slider is coupled to the trigger, it may connect the trigger with
the
first elastic member. In other words, the first elastic member may be attached
to
the slider and thereby the first elastic member may be releasably coupled to
the
trigger. In case the slider is not coupled to the trigger, the trigger and the
first
elastic member may be disconnected. In this case, no force is transmitted from
the trigger via the first elastic member to the coupling member when the con-
nection is released. The slider may thus enable to move the coupling member
from its second position into its first position independently from any
movement
of the trigger and from any force being required to load the first elastic
member,
as the slider may as the name almost implies simply follow the coupling member
if the releasable coupling is opened. Thus, repositioning of the coupling
member
to the first position can be initiated independently from and movement or
actua-
tion of the trigger. The period the coupling member requires for moving from
the
first position into the second position (thereby opening the valve, if a valve
mem-
ber is attached to the coupling member) and for moving back into the first
posi-
tion (thereby closing the valve, if a valve member is attached to the coupling
member) can be independent from an interaction of a user with the trigger.
Only
the time when the period starts is controlled by actuating the trigger.
In an example, the trigger and/or the slider may movably support a locking mem-
ber having a locking position and a non-locking position. The locking member,
if
in its locking position, may provide a positive locking and/or an interference
fit
Date Recue/Date Received 2022-08-12

12
between the trigger and the slider, thereby coupling the slider to the
trigger. Ac-
cordingly, in case the locking member is in the locking position the slider
follows
the trigger, which may result in preloading the first elastic member. For
example,
if the coupling member is in its first position, the blocking member is in its
block-
ing position, and if the trigger is moved from its non-actuated position
towards
its actuated position. Once the blocking member is moved into the non-blocking
position, the coupling member is moved by the force of the first elastic
member
into the second position. This movement of the coupling member towards the
second position may be controlled by the trigger, e.g. once the trigger
reaches a
predefined position. Subsequently, the locking member may be moved in its
non-locking position (for example if the coupling member reached the second
position) and thereby release the positive locking and/or the interference
fit, re-
spectively. Moving the locking member into the non-locking position opens the
releasable coupling and hence uncouples the trigger and the slider. Thus, as
al-
ready explained before, in this case the coupling member may be moved back
into the first position while the position of the trigger or a movement of the
trig-
ger does not affect the movement of the coupling member. The closing proce-
dure of the valve can thus be decoupled from the way the trigger is
manipulated.
In other words, the way the user actuates or releases the trigger does not
affect
the duration of opening or closing the valve. This improvement enables to pro-
vide for clearly distinguishable water drops being released by the water gun.
This
further enhances the impression of water "bullets".
Preferably, the locking member, if in its locking position is in the
trajectory of the
coupling member when moving the coupling member from the first position to
the second position. Accordingly, the coupling member abuts the locking mem-
ber, if the locking member is in its locking position and if the coupling
member
moves towards the second position. Further preferably, the coupling member is
configured to move the locking member into the non-locking position when mov-
ing the coupling member from an intermediate position to the second position.
Date Recue/Date Received 2022-08-12

13
Accordingly, when the coupling member abuts the locking member, the coupling
member may drive and/or entrain the locking member into the non-locking posi-
tion and/or release a corresponding movement. Thereby, the slider and hence
the coupling member may be decoupled from the trigger, once the coupling
member moved a given path (and/or a given angle) towards the second position.
This decoupling may reliably control the moment when closing of the valve is
ini-
tiated independently from any additional action of the user. Closing of the
valve
can be reliably repeated once a predefined valve opening has been reached.
These preferred measures provide for very shorts bursts of water, which not
only
further increases the impression of firing water bullets, but as well
increases the
number of "bullets" that can be shot with a given amount of liquid in the
reser-
voir. The costs for providing the capability of ejecting a given number of
water
bullets is thus decreased.
For example, the locking member may be biased towards its locking position,
e.g., by another elastic member. Driving the locking member towards the non-
locking position may increase the biasing force. The coupling member may drive
the locking member into the un-locking position when being shifted towards its
second position, thereby releasing the coupling between the slider and the
trig-
ger.
Alternatively, the locking member may be biased towards its non-locking posi-
tion, in this case the locking position is preferably not in the trajectory of
the
coupling member, but the non-locking position. Thus, when moving the coupling
member from the first position to the second position, the locking member may
be released when moving the coupling member towards the second position.
The coupling member is so to speak moved out of the trajectory of the locking
member, in case the coupling member is moved towards the second position,
thereby releasing a movement of the locking member into its non-locking posi-
tion.
Date Recue/Date Received 2022-08-12

14
Particularly preferred, the slider, when in the fourth position may be biased
to-
wards the third position. Thus, when decoupling the slider from the trigger if
the
coupling member at least almost reached its second position, the slider may
drive, e.g. entrain, the coupling member into the first position. Again,
reliability
and reproducibility of closing the valve is further enhanced. This biasing may
be
due to a second elastic member being loaded if the slider is moved towards the
fourth position. In this example, the term second elastic member is only a
pars
pro toto for any other kind of a second potential energy storage.
Alternatively or
in addition to loading the second elastic member, the slider may decrease the
volume of a pressure reservoir when being moved towards the fourth position.
Alternatively or in addition, the coupling member may be returned from the sec-
ond position into the first position by a force being exerted onto the valve
mem-
ber. In particular in this case, the slider may be releasably coupled to the
cou-
pling member. Wherein the releasable coupling is opened after the slider has
been moved into the third position and closed when the slider is in the fourth
position and the coupling member is (at the same time) in the second position.
Preferably, at least a portion of the coupling member may be in the trajectory
of
the slider, when moving the slider from the fourth position to the third
position
and if the coupling member has not been shifted back into its first position.
In
this case the slider simply pushes the coupling member towards is first
position if
the slider is driven by the biasing force toward the third position.
In addition or as an alternative, at least a portion of the slider may be
located in
the trajectory of the coupling member, when moving the coupling member from
the second position to the first position and if the slider has not been
shifted
back into the third position. In this case the coupling member may be driven
by a
biasing force towards the first position and entrains the slider (once
decoupled).
Date Recue/Date Received 2022-08-12

15
Assuming the blocking member is in its non-blocking position and the coupling
member in the first position, then preferably at least a portion of the
blocking
member may be in the trajectory of the trigger when moving the trigger towards
the non-actuated position. Further, the trigger may preferably be configured
to
entrain the blocking member into the blocking-position when moving the trigger
into the non-actuated position, while the coupling member is in the first posi-
tion. Thereby the coupling member can be safely and reliably secured in the
first
position, until the first elastic member is loaded (again) by moving the
trigger
into the actuated position.
As already apparent, the actuation mechanism may be a part of or integrated
into a toy water gun or any other liquid dispensing device. The toy water gun
and/or the other liquid dispensing device may further comprise a housing
and/or
a liquid tank having an outlet and/or a valve with a valve conduit, a valve
inlet
port, a valve opening, a valve outlet port and a movably supported valve mem-
ber, wherein the valve member has a closed position in which the valve member
closes the valve opening and an open position in which the valve member re-
leases the valve opening. Further, the toy water gun or more generally the
liquid
dispensing device may further comprise a tube with a tube wall providing a
fluid
communication of the outlet of the liquid tank with the inlet port of the
valve
conduit and/or a nozzle being in fluid communication with the outlet port of
the
valve. The term "tube" may be considered as a synonym to "conduit" and include
without being limited to as well "fluid line", "pipe", "hose" or the like.
Preferably,
the valve member is attached to the coupling member, wherein the coupling
member is configured to entrain the valve member from the closed position into
the open position if the coupling member is moved from the first position into
the second position.
The water gun (as an example for any liquid dispensing device) may further com-
prise a rod having a proximal end and a distal end. The distal end may
preferably
Date Recue/Date Received 2022-08-12

16
be attached to and/or unitary with the valve member. Preferably, the distal
end
may be attached to and/or be unitary with the coupling member.
Particularly preferred extends the rod through an opening in the tube wall,
the
valve conduit and/or the liquid tank. This measure enables to locate the
entire
actuation in the dry portion (=not submerged = not filled with water) of the
liq-
uid dispenser, resulting in a shorter valve opening times as well as reduced
man-
ufacturing costs.
For example, the liquid tank may be a pressure tank, configured to contain a
pressurized liquid and/or the base may integrated into, unitary with and/or at-
tached to a water gun housing or any other kind of liquid dispensing
apparatus.
Only for conceptual simplicity we do not distinguish herein between water guns
and water pistols. Use of one term shall encompass the other. Further, as
already
apparent, the toy water guns are only an example for any liquid dispensing de-
vice having a valve with a valve member to control dispensing the liquid.
In the foregoing we assumed that a movement of a part implies a change of its
position or location relative to other parts like, e.g. the base. In a strict
verbal
sense this means that the movement is a translation or a superposition of a
translation and a rotation. Both alternatives are preferred. In case the
movement
is a rotation, there may be cases in which the position remains unaltered,
only
the orientation changes. Herein we did not distinguish between these cases to
enhance legibility. Except if the movement is explicitly a pure translation or
a
pure rotation the terms "position" and "location" can be replaced by "position
and/or orientation" and "location and/or orientation", respectively. Further,
we
explained herein that some trajectories are preferably at least essentially
paral-
lel. In a strict mathematical sense, this implies that the trajectories are
straight
lines, which is a preferred example. In another example, the trajectories can
be
circles or sections of circular lines. In this another example, circular
trajectories
Date Recue/Date Received 2022-08-12

17
shall be considered parallel, if the circular trajectories are at least
essentially con-
centric. At least essentially concentric means that concentric is preferred
but de-
viations can be accepted. For example if the absolute value of the distance be-
tween the two centers of the two circular lines is smaller than at least one
of 1%,
5% 10%, 15% and/or 20% of the maximum radius of the circular lines this shall
be
considered to be at least approximately concentric.
Description of Drawings
In the following the invention will be described by way of example, without
limi-
tation of the general inventive concept, on examples of embodiment with refer-
ence to the drawings.
Figure 1 shows an actuation mechanism in an initial state.
Figure 2 shows the actuation mechanism in first stage of operation.
Figure 3 shows the actuation mechanism in a second stage of operation.
Figure 4 shows the actuation mechanism in a third state of operation.
Figure 5 shows the actuation mechanism in a fourth state of operation.
Figure 6 shows the actuation mechanism in a sixth state of operation.
Figure 7 shows the actuation mechanism in a seventh state of operation.
Figure 8 shows the actuation mechanism in a eighth state of operation.
Figure 9 shows the actuation mechanism returning back to the initial state.
Figure 10 shows a potential non-precise return to the initial state.
Figure 11 shows the potential non-precise return to the initial state
corrected.
Figure 12 shows the actuation mechanism of Fig. 1 to 11 installed in a toy
water
Date Recue/Date Received 2022-08-12

18
gun, being an example for a liquid dispensing apparatus.
The actuation mechanism 1 in Fig. 1 has a base 30 forming a housing. In Fig. 1
to
Fig. 11 an optional, but preferred cover for closing the base 30 has been
omitted
to visualize the different positions of the parts and their interaction.
.. As show in Fig. 1, the actuation mechanism 1 has a coupling member 50 being
configured to be coupled to a valve member, e.g. to (or via) a valve rod 25
having
a longitudinal axis 2. The coupling member 50 provides an interface which may
be adapted to any valve. As shown, the coupling member 50 may for example
have an optional recess for receiving the distal end of the valve rod 25 in
what is
referred to herein as the front side 53 of the coupling member 50. The arrow 3
thus indicates the forward direction 3 and the arrow 4 the rearward direction
4.
The valve rod may be firmly attached to the coupling member, but as well with
a
predefined mount of axial play, which eases assembly the final liquid
dispensing
device and further contributes to its reliability and hence quality. For
example, as
.. shown in Fig. 1 to Fig. 11, the distal end of the valve rod 25 may extend
through
an opening into a chamber of the coupling member 50. A lock nut, a retaining
ring and/or any other type of axial fastening means 27 may abut the valve
sided
portion of the chamber wall and thereby entrain the valve member and/or the
valve rod 25 in case the coupling member 50 is moved towards the second posi-
tion, i.e. in the rearward direction 4 (see e.g. Fig. 3). When moving the
coupling
member 50 towards its initial first position, the distal end face of the valve
mem-
ber and/or of the valve rod 25 may abut the valve facing portion of the
chamber
wall and thereby entrain the valve and/or the valve rod 25 (see e.g. Fig. 9).
The coupling member 50 may be movably supported by the base 30. The base 30
.. thus provides a support structure and one could as refer to the base 30 as
sup-
port or housing bottom. Preferably, the at least two opposed plain bearing sur-
Date Recue/Date Received 2022-08-12

19
faces 35 extend at least essentially parallel to the forward direction 3
thereby en-
abling a movement of the coupling member 50 in between of a first position (be-
ing shown in Fig. 1) and a second position as shown in Fig. 4.
The actuation mechanism may further comprise a trigger 90. The trigger 90 pro-
vides a user interface to open the valve for a duration being defined by the
actu-
ation mechanism 1. To this end, the trigger 90 is movably supported by the
base 30 and can be moved from a non-actuated position (Fig. 1) into an
actuated
position (see Fig. 3). Like the coupling member 50, the trigger 90 may as well
be
movably supported by at least two opposed plain bearing surfaces 39 of the
base 30. The trigger 90 may be biased towards the non-actuated position, e.g.
by
a return spring (omitted in the figures) or any other elastic member and/or po-
tential energy storage.
As can be seen in Fig. 1, a first elastic member 57 (hereinafter first spring
57, to
render it more vivid) may couple the coupling element 50 with the trigger 90,
for
.. example via a slider 70, being releasably coupled to the trigger 90. The
optional
slider 70 may as well be movably supported relative to the base 30, preferably
by
plain bearing surfaces 37 being formed like the plain bearing surfaces 35 and
39
by opposing wall structures of the base 30.
The actuation mechanism 1 may further comprise an optional blocking mem-
.. ber 60, having a blocking position (Fig. 1) and a non-blocking position
(Fig. 3).
Preferably, the blocking member 60 is biased by an elastic member 67 (and/or
any other kind of potential energy storage) towards the blocking position. The
di-
rection of movement of the blocking member 60 is preferably not parallel to
the
direction of movement of the coupling member 50. In a preferred example, the
optional blocking member 60 is movably supported by the base 30, e.g., by
plain
bearing surfaces enabling a movement of the blocking member 60 at least essen-
tially orthogonal to the movement of the optional coupling member 50 and/or of
Date Recue/Date Received 2022-08-12

20
the optional trigger 90 and/or of the optional slider 70. Again at least
essentially
orthogonal means that orthogonal is preferred, but deviations can be accepted.
For example, deviations from the orthogonal direction by an angle ao can be ac-
cepted, in particular if the absolute value of the angle ao is smaller or
equal than
a critical angle ac, wherein a, E A = (300,200, 100, 5 , 2.5 , 1 , 0.5 , 0 1,
which
can be expressed by the relation la,' a,.
In Fig. 1 the blocking member 60 is shown in the blocking position. An abut-
ment 56 of the coupling member 50 abuts blocking member 60, or in more detail
an abutment 65 of the blocking member 60, thereby preventing the coupling
member 50 to follow the trigger 90, towards its actuated position -until the
blocking member 60 is moved into its non-blocking position being shown in
Fig. 3.
As can be seen in Fig. 1, the blocking member 60 may have an optional first re-
cess 61 and/or an optional second recess 62. An optional first protrusion 51
of
the coupling member 50 may extend through the optional second recess 62 of
the blocking member 60. A step in the first protrusion 51 may provide the abut-
ment 56 of the coupling member 50. In other words, the protrusion 51 may have
at least two sections, a first section 511 with a reduced diameter and a
second
section 512 with an increased diameter, wherein the step 56 may separate the
first section 511 and the second section 512. Preferably, the second section
512
may be closer to the center of gravity of the coupling member 50 and the first
section is farther from the coupling member 50 than the second section 512.
As can be seen e.g. in Fig. 1 (cf as well Fig. 2 to 11), the blocking member
60 may
further comprise the first recess 61 through which a protrusion of the trigger
ex-
tends. The protrusion is as well referred to as pusher dog 91 and may have a
sur-
face being inclined relative to a movement of the trigger towards its actuated
po-
sition and/or preferably relative to the boundary of the first recess 61.
Thus,
Date Recue/Date Received 2022-08-12

21
when moving the trigger 90 from the position in Fig. 1 towards its actuated
posi-
tion as shown in Fig. 2, the inclined surface 911 is moved towards the
boundary
of the first recess 61. The length of the pusher dog 91 is preferably
dimensioned
such that the inclined surface 911 reaches the boundary of the first recess 61
if
or shortly before the trigger 90 reaches its actuated position, as shown in
Fig. 3.
Shortly before may be understood for example, the trigger travelled at least
one
of 50%, 75%, 80%, 85%, 90% or 95% of the path from the non-actuated position
of the trigger 90 to the actuated position of the trigger 90 when the inclined
sur-
face 911 contacts the blocking member 60. Moving the trigger 90 further thus
shifts the blocking member 60 into the non-blocking position, as shown in Fig.
3.
Only to avoid misunderstandings, it is noted that Fig.2 shows the trigger at
an in-
termediate position when being moved towards the actuated position.
Going back to Fig. 1, it can be seen, that the slider 70 may be releasably
coupled
to the trigger 90: For example, the trigger 90 may movably support a locking
member 80 in a recess 98 of the trigger 90. The recess 98 preferably disables
a
movement of the locking member 80 in the direction of the movement of the
trigger, but allows the locking member 80 to be moved at least essentially or-
thogonal to the trigger 90 and/or the slider 70. An optional elastic member 87
may bias the locking member 80 into a recess 78 (see Fig. 4) of the slider 70,
thereby coupling the slider 70 to the trigger 90 as shown e.g. in Fig. 1 to 3.
Thus,
if the locking member 80 is in the locking position, the slider 70 follows a
move-
ment of the trigger 90 towards the actuated position of the trigger 90. The
lock-
ing member 80 may comprise an optional abutment 85 being preferably inclined
relative to the direction of movement of the locking member 80. This optional
abutment 85 may be located in the trajectory of coupling member 50, when
moving the coupling member 50 from the first position (as shown in Fig. 2) to
the
second position (as shown in Fig. 4). Particularly preferred is the distance
of the
abutment 85 of the locking member 80 spaced from the portion 58 of the cou-
pling member 50 configured to abut the abutment 85 of the locking member 80
Date Recue/Date Received 2022-08-12

22
by at least one of 50%, 75%, 80%, 85%, 90% or 95% of the distance between the
portion 58 in the first position and the portion in the second position. Thus,
when the portion 58 of the coupling member 50 configured to abut the abut-
ment 85 almost reaches its second position, it abuts the abutment 85 and
further
moving the coupling member 50 into the second position moves the locking
member 80 into the unlocking position (see Fig. 4).
At this point it is noted that it does not matter if the locking member 80 is
mova-
bly supported by the trigger 90 or the slider 70 or the base 30. For example,
simi-
lar to the depicted example, the slider 70 may have a recess movably
supporting
the locking member 80 and the trigger 90 may have a recess into which the lock-
ing member 80 may movably engage, to thereby couple the slider 70 and the
trigger 90. In other words, the coupling works as well, if the locking member
80 is
movably supported by the slider 70 and/or the base 30. In all cases the
coupling
member 50 may by an abutment 85, be enabled to move the locking member 80
into the non-locking position in which the locking member 80 decouples the
trig-
ger 90 and the slider 70.
Operation of the actuation mechanism 1 will be explained in the following by
go-
ing through the sequence of Fig. 1 to Fig. 11.
Fig. 1 shows the starting positions of the optional coupling member 50, the op-
tional slider 70, the trigger 90, the optional blocking member 60 and of the
op-
tional locking member 80, i.e. the trigger 90 is in its non-actuated position,
the
coupling member 50 is in the first position and the slider 70 is in the third
posi-
tion. The blocking member 60 is in the blocking position and the locking mem-
ber 80 is in the locking position. Thus, the blocking member 60 inhibits a
move-
ment of the coupling member 50 towards the second position and the slider 70
is
coupled to the trigger 90. All elastic members 57, 67, 77, 87 may e.g. be
relaxed,
at least the stored potential energy may have a local minimum in the operation
Date Recue/Date Received 2022-08-12

23
cycle. A certain pretension of bias is allowed, but each potential energy
stored by
a respective elastic member has a minimum.
In order to open the valve, i.e. to move the coupling member 50 towards the
sec-
ond position a user may move the trigger 90 towards the actuated position (see
arrow 4). As can be seen in Fig. 2, in which the trigger 90 is still being
moved, the
trigger 90 entrains the slider 70 due to the closed releasable coupling as pro-
vided by the locking member 80. The potential energy being stored by the first
elastic member 57 and by the optional second elastic member 77 are each in-
creased due to moving the trigger 90. The optional pusher dog 91 still moves
rel-
ative to the optional blocking member 60, without interacting with the
blocking
member 60.
As soon as the pusher dog's inclined surface 911 abuts the blocking member 60,
the user continues moving the trigger 90 into the actuated position and the
blocking member 60 is moved into the non-blocking position as shown in Fig. 3.
In other words, the pusher dog 91 releases the coupling member 50, and the
coupling member 50 is accelerated by the first elastic member 57 towards the
slider 70 and/or the trigger 90, entraining the valve member (see Fig. 3). The
valve thus starts to be opened, very swiftly, due to the preload of the first
elastic
member 57.
When the coupling member 50 reaches its second position, the portion 58 of the
coupling member 50 configured to abut the abutment 85 of the locking mem-
ber 80 thereby shifting the locking member 80 into the un-locking position.
The
coupling between the slider 70 and the trigger 90 is released. It is noted
that the
time when the coupling is released does not depend on an any user interaction
or input- once the blocking member 60 has been moved into the non-blocking
position by pulling the trigger 90 into the actuated position.
Date Recue/Date Received 2022-08-12

24
Once the coupling is released, the slider 70 is driven by the second elastic
mem-
ber 77 from the fourth position (see Fig. 4) towards the third position,
thereby
abutting and hence entraining the coupling member 50, which results in closing
the valve again. In this example the coupling member 50 has an optional abut-
ment surface 59. The optional abutment surface 59 may be located at the
slider 70 facing side of an optional second protrusion 52 of the coupling mem-
ber 50. Relevant is only that the optional abutment surface 59 is in a
trajectory of
the slider 70 when the slider 70 is moved from the fourth position to the
third
position.
Stages of the movement of the slider and of the coupling member back into
their
respective initial positions are shown in Fig. 4 to Fig. 8. Comparing Fig. 4
with
Fig. 5, it can be seen that the coupling member 50 in its second position
prefera-
bly does not abut the slider, thereby ensuring that the locking member 80 may
be reliably moved into the non-locking position as shown in Fig. 4. Thereby,
the
slider 70 is decoupled from the trigger 90 and driven by the preloaded second
elastic member 77 towards the abutment surface 59 of the coupling member. As
can be seen in Fig. 6 the slider entrains the coupling member towards the
first
position when being moved towards the third position. Hence, once the trig-
ger 90 has been shifted into the actuated position, the coupling member 50
moves from the first position into the second position and back into the first
po-
sition independently from the user's interaction with the trigger 90. The
opening
time and the time required to close the valve is hence fully determined by the
ac-
tuation mechanism, thereby reproducibly enabling very short valve opening
times, which provide the impression of releasing water bullets through the
valve
of a correspondingly equipped toy water gun or of any other device which re-
quires an exact timing of opening and/or closing of the valve.
To configure the actuation mechanism 1 for the next cycle, the user simply has
to
push the trigger back into the non-actuated position. Alternatively or in
addition,
Date Recue/Date Received 2022-08-12

25
the trigger may be preloaded into the non-actuated position. In this case the
user simply releases the trigger. This may as well be cared for by an optional
fur-
ther elastic member. This movement back to the non-actuated position is shown
in Fig. 9: The pusher dog 91 releases the blocking member 60 and it may be
moved into the blocking position by the elastic member 67. Similarly, the
locking
member 80 is moved into the locking position, i.e. the locking member engages
into the recess 78 of the slider 70. Now the cycle may be restarted by a user
moving the trigger into the actuated position.
Fig. 10 shows a case, in which by chance the coupling member 50 did not fully
re-
turn into the first position. The blocking member 60 thus cannot re-engage,
i.e. a
movement of the blocking member 60 back into the blocking position is blocked
by the second section 512 of the first protrusion 51. In this unlikely event,
shift-
ing the trigger 90 back into the initial non-actuated position causes portion
58 of
the protrusion configured to abut the locking member 80 to be abutted by the
locking member 80, maintaining or moving the locking member 80 in the non-
locking position, but as well moving the coupling member 50 into the first
posi-
tion as shown in Fig. 11. The blocking member 60 may subsequently be moved
by the elastic member 67 back into the blocking position. Releasing the
trigger 90
may cause the trigger to slightly shift away from the coupling member 50 due
to
force exerted by the elastic member 87 onto the locking member 80 and the trig-
ger 90 as well as the locking member 80 each return into their initial
position, i.e.
into the non-actuated position and into the locking position, respectively, as
de-
picted in Fig. 1.
Fig. 12 shows a toy water gun 100 being a liquid dispensing and dosing de-
vice 100 with the actuation mechanism of Fig. 1 to 11. A pressure tank 115 may
be in fluid communication via a tube 130, being defined by a tube wall 131,
with
an inlet port 123 of a valve 120 or more precisely with a valve inlet port 123
of a
Date Recue/Date Received 2022-08-12

26
valve conduit 121. The valve conduit 121 further has a valve outlet port 125
be-
ing in fluid communication with a nozzle 140. The coupling member 50 is
coupled
to a valve rod 25 of a valve member 126, being in this example a valve
plunger.
But ball valves may be used as well. Pulling a trigger device 150 shifts the
trig-
ger 90, being force transmittingly connected to the trigger device 150, from
the
non-actuated position into the actuated position and thereby initiates opening
of
the valve 120. Once the trigger device has been moved back into its initial de-
picted non-actuated position the cycle may be repeated.
Date Recue/Date Received 2022-08-12

27
List of reference numerals
1 actuation mechanism
2 longitudinal axis
25 rod / valve rod
27 axial fastening means
30 base
35 plain bearing surfaces
37 plain bearing surfaces
39 plain bearing surfaces
50 coupling member
51 first protrusion
52 second protrusion
53 front side of the coupling member 50
511 first section of first protrusion
512 second section of first protrusion
56 abutment of coupling member 50
57 first elastic member / spring
58 portion of coupling member configured to abut abutment 85 of locking
member 80
59 abutment surface
60 blocking member
61 first recess
62 second recess
65 abutment of blocking member 60
67 elastic member / spring
70 slider
Date Recue/Date Received 2022-08-12

28
77 second elastic member
78 recess
80 locking member
85 abutment
87 elastic member / spring
90 trigger
91 pusher dog
911 inclined surface
98 recess housing locking member 80
100 toy water gun / liquid dispensing or dosing device
110 housing of device 100
115 liquid tank
120 valve
121 valve conduit
123 valve inlet port
124 valve opening! valve seat
125 valve outlet port
126 valve member
130 tube
131 tube wall
140 nozzle
150 trigger device
Date Recue/Date Received 2022-08-12

Dessin représentatif
Une figure unique qui représente un dessin illustrant l'invention.
États administratifs

2024-08-01 : Dans le cadre de la transition vers les Brevets de nouvelle génération (BNG), la base de données sur les brevets canadiens (BDBC) contient désormais un Historique d'événement plus détaillé, qui reproduit le Journal des événements de notre nouvelle solution interne.

Veuillez noter que les événements débutant par « Inactive : » se réfèrent à des événements qui ne sont plus utilisés dans notre nouvelle solution interne.

Pour une meilleure compréhension de l'état de la demande ou brevet qui figure sur cette page, la rubrique Mise en garde , et les descriptions de Brevet , Historique d'événement , Taxes périodiques et Historique des paiements devraient être consultées.

Historique d'événement

Description Date
Inactive : Page couverture publiée 2023-05-30
Exigences de correction - jugée conforme 2023-05-30
Inactive : Certificat de correction - Envoyé 2023-05-18
Inactive : Correction au brevet dem-Soutien à l'exam 2023-04-26
Inactive : Octroit téléchargé 2023-04-11
Inactive : Octroit téléchargé 2023-04-09
Inactive : Octroit téléchargé 2023-04-06
Inactive : Octroit téléchargé 2023-04-06
Lettre envoyée 2023-04-04
Accordé par délivrance 2023-04-04
Inactive : Page couverture publiée 2023-04-03
Préoctroi 2023-02-22
Inactive : Taxe finale reçue 2023-02-22
Lettre envoyée 2022-12-12
Un avis d'acceptation est envoyé 2022-12-12
Inactive : Q2 réussi 2022-11-29
Inactive : Approuvée aux fins d'acceptation (AFA) 2022-11-29
Inactive : Page couverture publiée 2022-10-18
Demande publiée (accessible au public) 2022-09-08
Modification reçue - réponse à une demande de l'examinateur 2022-08-12
Modification reçue - modification volontaire 2022-08-12
Rapport d'examen 2022-07-20
Inactive : Rapport - Aucun CQ 2022-07-18
Inactive : CIB attribuée 2022-06-17
Inactive : CIB en 1re position 2022-06-17
Inactive : CIB enlevée 2022-06-17
Inactive : CIB attribuée 2022-06-17
Lettre envoyée 2022-06-15
Exigences de dépôt - jugé conforme 2022-06-15
Exigences applicables à la revendication de priorité - jugée conforme 2022-06-13
Lettre envoyée 2022-06-13
Demande de priorité reçue 2022-06-13
Demande reçue - nationale ordinaire 2022-05-17
Exigences pour une requête d'examen - jugée conforme 2022-05-17
Avancement de l'examen jugé conforme - PPH 2022-05-17
Avancement de l'examen demandé - PPH 2022-05-17
Inactive : Pré-classement 2022-05-17
Toutes les exigences pour l'examen - jugée conforme 2022-05-17
Inactive : CQ images - Numérisation 2022-05-17

Historique d'abandonnement

Il n'y a pas d'historique d'abandonnement

Historique des taxes

Type de taxes Anniversaire Échéance Date payée
Taxe pour le dépôt - générale 2022-05-17 2022-05-17
Requête d'examen - générale 2026-05-19 2022-05-17
Taxe finale - générale 2022-05-17 2023-02-22
TM (brevet, 2e anniv.) - générale 2024-05-17 2024-05-02
Titulaires au dossier

Les titulaires actuels et antérieures au dossier sont affichés en ordre alphabétique.

Titulaires actuels au dossier
SPYRA GMBH
Titulaires antérieures au dossier
S.O.
Les propriétaires antérieurs qui ne figurent pas dans la liste des « Propriétaires au dossier » apparaîtront dans d'autres documents au dossier.
Documents

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Description du
Document 
Date
(aaaa-mm-jj) 
Nombre de pages   Taille de l'image (Ko) 
Description 2022-05-17 28 1 253
Abrégé 2022-05-17 1 33
Revendications 2022-05-17 5 155
Dessins 2022-05-17 12 517
Dessin représentatif 2022-10-18 1 16
Page couverture 2022-10-18 1 53
Abrégé 2022-08-12 1 29
Revendications 2022-08-12 5 199
Description 2022-08-12 28 1 616
Dessin représentatif 2023-03-23 1 18
Page couverture 2023-03-23 1 51
Page couverture 2023-05-18 2 266
Paiement de taxe périodique 2024-05-02 8 315
Courtoisie - Réception de la requête d'examen 2022-06-13 1 424
Courtoisie - Certificat de dépôt 2022-06-15 1 569
Avis du commissaire - Demande jugée acceptable 2022-12-12 1 579
Certificat électronique d'octroi 2023-04-04 1 2 527
Nouvelle demande 2022-05-17 7 277
Documents justificatifs PPH 2022-05-17 5 181
Requête ATDB (PPH) 2022-05-17 2 234
Demande de l'examinateur 2022-07-20 5 238
Modification 2022-08-12 44 1 830
Taxe finale 2023-02-22 5 145
Correction d'un brevet demandé 2023-04-26 4 85
Certificat de correction 2023-05-18 2 385